64 research outputs found
Closed-Form and Explicit Analytical Model for Crosstalk in CMOS Photodiodes
A closed-form and explicit 2-D analytical model for crosstalk(CTK) effects in p-n + CMOS photodiodes for pixel design optimization has been developed in this paper. This model complements and extends a previous development describing the photocurrent because of the active area illumination along with the lateral depletion region and lateral components owing to the diffused photocarriers from the surroundings of the junction. The model has very few fitting parameters because it is physically based. Similarly, it can be of great use for CMOS image sensors designers, especially to fulfill high resolution and small area requirements by pixel size reduction. The model was validated extensively through device simulations with ATLAS and experimental data, and describes the CTK dependencies on light conditions and physical, geometrical, and process parametersThis work has been partially supported by the Spanish Government under projects TEC2009-12686 and TEC2012-38921-C02-02 (co-funded by the European Region Development Fund, ERDF/FEDER), by the Xunta de Galicia under project 10PXIB206037PR, by the Junta de Andalucía under project P08-TIC-3580 and by AE CITIUS under the project CN2012/151 of
the Xunta de Galicia (ERDF/FEDER)S
Analytical Model for Crosstalk in p-nwellPhotodiodes
The response and crosstalk (CTK) of the p-n well photodiode were studied through device simulations performed with ATLAS and experimental data. As a result, a closed-form and explicit 2-D analytical model for its photoresponse and CTK was developed. The model has very few fitting parameters since it is physically based and describes the CTK dependencies on light conditions and physical, geometrical, and process parameters. This is of great interest for pixel design optimization to fulfill high resolution and small area requirements driven by pixel size reduction. As this model extends a previous one focused on p-n + devices, the behavior of both the structures was also comparedThis work has been partially supported by the Spanish Government under projects TEC2009-12686 and TEC2012-38921-C02-02 (co-funded by the European Region Development Fund, ERDF/FEDER), by the Xunta de Galicia under project 10PXIB206037PR, by the Junta de Andalucía under project P08-TIC-3580 and by AE CITIUS under the project CN2012/151 of the Xunta de Galicia (ERDF/FEDER)S
From Chronodisruption to Sarcopenia: The Therapeutic Potential of Melatonin
Sarcopenia is an age-related condition that involves a progressive decline inmusclemass and
function, leading to increased risk of falls, frailty, andmortality. Although the exactmechanisms are not
fully understood, aging-related processes like inflammation, oxidative stress, reduced mitochondrial
capacity, and cell apoptosis contribute to this decline. Disruption of the circadian system with age
may initiate these pathways in skeletal muscle, preceding the onset of sarcopenia. At present, there
is no pharmacological treatment for sarcopenia, only resistance exercise and proper nutrition may
delay its onset. Melatonin, derived from tryptophan, emerges as an exceptional candidate for treating
sarcopenia due to its chronobiotic, antioxidant, and anti-inflammatory properties. Its impact on
mitochondria and organelle, where it is synthesized and crucial in aging skeletal muscle, further
highlights its potential. In this review, we discuss the influence of clock genes in muscular aging, with
special reference to peripheral clock genes in the skeletal muscle, as well as their relationship with
melatonin, which is proposed as a potential therapy against sarcopenia.Instituto de Salud Carlos III, grant numbers PI19-01372
and CB/10/00238FPU fellowship from the Ministerio de Universidades,
SpainPFIS fellowship from the Instituto de Salud Carlos II
iMS-Bmal1−/− mice show evident signs of sarcopenia that are counteracted by exercise and melatonin therapies
This study was partially supported by grants from the Instituto de Salud Carlos III through the grants PI19‐01372 and CB/10/00238 (co‐funded by European Regional Development Fund/European Social Fund “Investing in your future”); the Consejería de Economía, Innovación, Ciencia y Empleo, Junta de Andalucía (CTS‐101), Spain. José Fernández‐Martínez is supported by an FPU fellowship from the Ministerio de Educación, Spain; Yolanda Ramírez‐Casas has a PFIS fellowship from the Instituto de Salud Carlos III; Paula Aranda‐Martínez has a fellowship from grant no. P18‐RT‐698, and Alba López‐Rodríguez has a fellowship from grant no. P18‐RT‐3222, from the Consejería de Economía, Innovación, Ciencia y Empleo, Junta de Andalucía.Sarcopenia is an age-related disease characterized by a reduction in muscle mass, strength, and function and, therefore, a deterioration in skeletal muscle health and frailty. Although the cause of sarcopenia is still unknown and, thus, there is no treatment, increasing evidence suggests that chronodisruption, particularly alterations in Bmal1 clock gene, can lead to those deficits culminating in sarcopenia. To gain insight into the cause and mechanism of sarcopenia and the protective effect of a therapeutic intervention with exercise and/or melatonin, the gastrocnemius muscles of male and female skeletal muscle-specific and inducible Bmal1 knockout mice (iMS-Bmal1−/−) were examined by phenotypic tests and light and electron microscopy. Our results revealed a disruption of the normal activity/rest rhythm, a drop in skeletal muscle function and mass, and increased frailty in male and female iMS-Bmal1−/− animals compared to controls. A reduction in muscle fiber size and increased collagenous tissue were also detected, accompanied by reduced mitochondrial oxidative capacity and a compensatory shift towards a more oxidative fiber type. Electron microscopy further supports mitochondrial impairment in mutant mice. Melatonin and exercise ameliorated the damage caused by loss of Bmal1 in mutant mice, except for mitochondrial damage, which was worsened by the latter. Thus, iMS-Bmal1−/− mice let us to identify Bmal1 deficiency as the responsible for the appearance of sarcopenia in the gastrocnemius muscle. Moreover, the results support the exercise and melatonin as therapeutic tools to counteract sarcopenia, by a mechanism that does not require the presence of Bmal1.Ministerio de Educación, Spain
P18‐RT‐3222, P18‐RT‐698Consejería de Economía, Innovación, Ciencia y Empleo, Junta de Andalucíanstituto de Salud Carlos III:
CB/10/00238, PI19‐01372 ISCIIIEuropean Regional Development Fund
ERDFJunta de Andalucía
CTS‐10
Evaluation of NAB2-STAT6 Fusion Variants and Other Molecular Alterations as Prognostic Biomarkers in a Case Series of 83 Solitary Fibrous Tumors
Risk stratification of solitary fibrous tumor (SFT) patients based on clinicopathological features has limited efficacy, especially in predicting late relapse or metastasis. The hallmark alteration of SFT is the gene fusion NAB2-STAT6, whose prognostic value remains controversial. As biological knowledge of this entity has increased in recent years, new molecular alterations have emerged that could be helpful to refine current risk models. Here, we evaluated NAB2-STAT6 fusion variants and other molecular alterations in a series of 83 SFTs that are enriched in progressing cases. Gene fusion variants were identified by targeted RNA-seq in the whole series, whereas TERT promoter (pTERT) mutations were inspected by Sanger sequencing in a subset of 18 cases. Immunohistochemical assays were performed to assess BCOR and NTRK expression as well as P53 mutation status in 45, 44, and 44 cases, respectively. While confirming the associations of gene fusion variants with clinicopathological parameters, our results do not prove their prognostic value. Pan-TRK immunoexpresion correlated with recurrence/progression, P53 staining associated with higher mitotic counts, and pTERT mutations were enriched in cases with fatal outcome. An intriguing correlation was found for BCOR protein expression with gene fusion variants, size, and tumor location
The Zebrafish, an Outstanding Model for Biomedical Research in the Field of Melatonin and Human Diseases
The zebrafish has become an excellent model for the study of human diseases because it offers many advantages over other vertebrate animal models. The pineal gland, as well as the biological clock and circadian rhythms, are highly conserved in zebrafish, and melatonin is produced in the pineal gland and in most organs and tissues of the body. Zebrafish have several copies of the clock genes and of aanat and asmt genes, the latter involved in melatonin synthesis. As in mammals, melatonin can act through its membrane receptors, as with zebrafish, and through mechanisms that are independent of receptors. Pineal melatonin regulates peripheral clocks and the circadian rhythms of the body, such as the sleep/wake rhythm, among others. Extrapineal melatonin functions include antioxidant activity, inducing the endogenous antioxidants enzymes, scavenging activity, removing free radicals, anti-inflammatory activity through the regulation of the NF-kappa B/NLRP3 inflammasome pathway, and a homeostatic role in mitochondria. In this review, we introduce the utility of zebrafish to analyze the mechanisms of action of melatonin. The data here presented showed that the zebrafish is a useful model to study human diseases and that melatonin exerts beneficial effects on many pathophysiological processes involved in these diseases.Junta de AndaluciaFEDER Regional Development Fund CTS.205
UGR18
PI 2018 P. Excelencia-P18-RT-69
The Impact of Melatonin Supplementation and NLRP3 Inflammasome Deletion on Age-Accompanied Cardiac Damage
This study was partially supported by grants from the Instituto de Salud Carlos III through the projects PI13-981, PI16-00519, PI19-01372, and CB/10/00238 (Co-funded by European Regional Development Fund/European Social Fund "Investing in your future"); the Conserjeria de Economia, Innovacion, Ciencia y Empleo, Junta de Andalucia (CTS-101), Spain, and also by Sohag University, Egypt. M.F.-O and J.F.-M are supported by a FPU fellowship from the Ministerio de Educacion, Spain.To investigate the role of NLRP3 inflammasome in cardiac aging, we evaluate here morphological and ultrastructural age-related changes of cardiac muscles fibers in wild-type and NLRP3-knockout mice, as well as studying the beneficial effect of melatonin therapy. The results clarified the beginning of the cardiac sarcopenia at the age of 12 months, with hypertrophy of cardiac myocytes, increased expression of beta-MHC, appearance of small necrotic fibers, decline of cadiomyocyte number, destruction of mitochondrial cristae, appearance of small-sized residual bodies, and increased apoptotic nuclei ratio. These changes were progressed in the cardiac myocytes of 24 old mice, accompanied by excessive collagen deposition, higher expressions of IL-1 alpha, IL-6, and TNF alpha, complete mitochondrial vacuolation and damage, myofibrils disorganization, multivesicular bodies formation, and nuclear fragmentation. Interestingly, cardiac myocytes of NLRP3(-/-) mice showed less detectable age-related changes compared with WT mice. Oral melatonin therapy preserved the normal cardiomyocytes structure, restored cardiomyocytes number, and reduced beta-MHC expression of cardiac hypertrophy. In addition, melatonin recovered mitochondrial architecture, reduced apoptosis and multivesicular bodies' formation, and decreased expressions of beta-MHC, IL-1 alpha, and IL-6. Fewer cardiac sarcopenic changes and highly remarkable protective effects of melatonin treatment detected in aged cardiomyocytes of NLRP3(-/-) mice compared with aged WT animals, confirming implication of the NLRP3 inflammasome in cardiac aging. Thus, NLRP3 suppression and melatonin therapy may be therapeutic approaches for age-related cardiac sarcopenia.Instituto de Salud Carlos III (European Regional Development Fund/European Social Fund "Investing in your future") PI13-981
PI16-00519
PI19-01372
CB/10/00238Junta de Andalucia CTS-101Sohag UniversityGerman Research Foundation (DFG
Analysis of Plasma MicroRNAs as Predictors and Biomarkers of Aging and Frailty in Humans
Although circulating microRNAs (miRNAs) can modulate gene expression and affect immune system response, little is known
about their participation in age-associated frailty syndrome and sarcopenia. The aim of this study was to determine miRNAs as
possible biomarkers of age and frailty and their correlation with oxidative and inflammatory state in human blood. Three
inflammation-related miRNAs (miR-21, miR-146a, and miR-223) and one miRNA related with the control of melatonin
synthesis (miR-483) were analyzed. Twenty-two healthy adults, 34 aged robust, and 40 aged fragile patients were selected for
this study. The expression of plasma miRNAs was assessed by RT-qPCR; plasma cytokines (IL-6, IL-8, IL-10, and TNFα) were
analyzed by commercial kits, and plasma advanced oxidation protein products (AOPP) and lipid oxidation (LPO) were
spectrophotometrically measured. Fragile subjects had higher miR-21 levels than control subjects, whereas miR-223 and miR-
483 levels increased at a similar extend in both aged groups. All cytokines measured increased in aged groups compared with
controls, without differences between robust and fragile subjects. The fragile group had a TNFα/IL-10 ratio significantly higher
than robust and control groups. Aged groups also had higher AOPP and LPO levels than controls. Women presented higher
AOPP and LPO levels and increased expression of miR-483 compared with men. Positive correlations between miR-21 and
AOPP and between miR-483 and IL-8 were detected. The expression of miR-21 and the TNFα/IL-10 ratio were correlated
positively with the presence of frailty, which suggests that these markers can be considered as possible biomarkers for
age-related frailty.This work was partially supported by grants from the
Ministerio de Economía, Industria y Competitividad y por
el Fondo de Desarrollo Regional Feder, Spain nos. RD12/
0043/0005, PI13-00981, and CB16-10-00238 and from the
Universidad de Granada, Spain no. CEI2014-MPBS3
Generation of Molecular Diversity from Amino Acids. A Source for the Discovery of New TRP Channel Modulators
Trabajo presentado en el IV RECI: New Horizons in Ion Channel Research, celebrado en Cuenca (España) del 12 al 13 de febrero de 2013.Ion channels are central and challenging targets in medicinal chemistry but, because of the scarce structural knowledge, rational approaches to ion channel modulators are still rare. Moreover, the multimodal activation of some channels, like TRPs, complicates still more the scenario for rational discovery programs. Due to these facts, most strategies directed to identify ion channel modulators rely on the screening of peptide and small-molecule libraries. In this context, we have been involved in the development of synthetic pathways for the generation of diverse, chiral, highly functionalized linear and heterocyclic scaffolds from amino acids, and in the production of discrete libraries from them.
The screening of these libraries on different TRP channels has allowed the discovery of some innovative hits that have progressed to hit-to-lead optimization programs. This communication will deal with the synthesis, structural characterization, and biological evaluation of a collection of β,γ–diaminoester derivatives that display significant activity at TRPV1, TRPM8 and TRPA1 channels. Compound RGM04-7, a selective.Supported by MICINN grants: Consolider-Ingenio 2010 (CSD2008-00005 and CSD2006-00015), SAF2009-09323 and BFU2009-08346, and the Generalitat Valenciana (PROMETEO/2010/046)
Discovery of New Antagonists for TRPM8 Channel by High Throughput Assay
Trabajo presentado en el IV RECI: New Horizons in Ion Channel Research, celebrado en Cuenca (España) del 12 al 13 de febrero de 2013.TRP ion channels family is represented by 85 members that can be organized by their sequence homology into seven subfamilies. Some members of these subfamilies play an important role in detecting temperature changes. Within TRPV (vanilloid) subfamily, TRPV1 is the most studied member, and has been related with chronic pain, furthermore its pharmacological blockade and genetic deletion experiments have validated TRPV1 as a therapeutic target. Another member of the TRP family is TRPA1, which is activated by noxious cold and chemical compounds including allyl isothiocyanate (AITC), the pungent principle of wasabi and other mustard oils. TRPA1 appears to have a central role in the pain response but also it has been demonstrated that is essential for asthma [1]. TRP melastatin 8 (TRPM8) is activated by chemical cooling agents (such as menthol) or by temperatures between 28-15 ºC, mediating the detection of innocuous cold thermal stimuli. TRPM8 expression up-regulates has been suggested to play an important role in carcinogenesis and related with prostate cancer [2]. In this study was evaluated the biological activity of a new chemical library, through high throughput screening. We report here the identification of compounds presented a high blockade activity on TRPM8 and share common structure. These hits with notorious antagonistic effect were selected and observed in patch-clamp experiments performed in stable cell lines that expressed TRPV1, TRPM8 and TRPA1 to characterize more accurately their properties. These new pharmacophoric scaffolds can be used as a hit to develop new compounds with better modulator properties interesting to the clinical field or as a research tool.Supported by Consolider-Ingenio 2010 (CSD2008-00005), MICINN (BFU2009-
08346), MICCIN (BES-2010-037112), La Fundacion La Marato de TV3, PrometeoGVA and SAF2009-09323Peer reviewe
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